Temporal gill transcriptome of the deep-sea mussel Bathymodiolus azoricus in situ and in the laboratory

The project was designed to explore biological rhythms in the hydrothermal vent mussel Bathymodiolus azoricus. The experiment provides the first high-resolution temporal transcriptomes of an hydrothermal species, both in situ and in the laboratory.

Date (Creation): 2017-07-26

Date (Publication): 2019-10-24

Identifier: FR-330-715-368-00032-IFR_BIOINFO_RYTHM_AND_BLUE

Identifier: DOI:10.12770/971d2c1a-51cc-49fd-882c-465970de8ed2

Credit: Ifremer - Laboratoire Environnement Profond et LEMAR

Author

- Mat Audrey

Author

IFREMER - Sarrazin Jozee

Centre Bretagne - ZI de la Pointe du Diable - CS 10070 - 29280 Plouzané , Brest , France

02 98 22 43 29
02 98 22 47 57

Author

- Markov Gabriel V.

Author

IFREMER - Apremont Vincent

Centre Bretagne - ZI de la Pointe du Diable - CS 10070 - 29280 Plouzané , Brest , France

02 29 00 85 68

Author

IFREMER - Dubreuil Christine

Author

- Eché Camille

Author

UBO - Fabioux Caroline

Author

- Klopp Christophe

Author

IFREMER - Sarradin Pierre-Marie

Centre Bretagne - ZI de la Pointe du Diable - CS 10070 - 29280 Plouzané , Brest , France

02 98 22 46 72

Author

- Tanguy Arnaud

Author

IFREMER - Huvet Arnaud

Centre Bretagne - ZI de la Pointe du Diable - CS 10070 - 29280 Plouzané , Brest , France

02 98 22 46 93
02 98 22 46 53

Author

IFREMER - Matabos Marjolaine

Centre Bretagne - ZI de la Pointe du Diable - CS 10070 - 29280 Plouzané , Brest , France

02 98 22 43 05
02 98 22 47 57

Publisher

IFREMER -

GEMET - INSPIRE themes, version 1.0

Habitats and biotopes

Thèmes Sextant

/Biological Environment/Bioinformatics

Type de jeux de donnée ODATIS

/Sequences

Variables ODATIS

/Marine Biology/Bioinformatics

Use limitation: Accès restreint jusqu'à la publication de l'article

Access constraints: Copyright

Use constraints: Copyright

Metadata language: Français

Character set: UTF8

Topic category

Environment

Reference system identifier: EPSG / WGS 84 (EPSG:4326) / 8.6

Distribution format

OnLine resource: /home/ref-bioinfo-public/ifremer/lep/RhythmAndBlue ( NETWORK:LINK )

OnLine resource: Lien de téléchargement ( WWW:DOWNLOAD-1.0-link--download )

OnLine resource: DOI of the dataset ( WWW:LINK-1.0-http--metadata-URL )
DOI of the dataset

Hierarchy level: Dataset

Statement: Environmental cycles strongly impact living organisms and have favored the selection of biological clocks, which temporally organize living systems from the molecular to the organism level. These clocks are innate, endogenous, have a genetic basis, and are entrained by external cues called zeitgebers (time-givers). They are also adaptive, as they confer organisms the ability to anticipate changes in their environments. Biological rhythms are ubiquitous across taxa, from cyanobacteria to vertebrates and plants. They are adaptive, as they confer organisms the ability to anticipate changes in their environments. In the darkness of these ecosystems, the deep oceans are not aperiodic zones and oceanic internal tides – internal waves with tidal periodicity – occur throughout all depths worldwide. In the Pacific and Atlantic Oceans, tidal and diurnal periodicities have been reported to influence vent species behavior and abundance at 2000 m depth. This work aims to investigate the temporal ecology and chronobiology of deep-sea ecosystems focusing on the mussel of genus Bathymodiolus, one of the dominant macroorganisms in chemosynthesis-based communities around hydrothermal vents and cold-water seeps in the deep sea. The project was designed to explore biological rhythms in the hydrothermal vent mussel Bathymodiolus azoricus. The experiment provides the first high-resolution temporal transcriptomes of an hydrothermal species, both in situ and in the laboratory.